% tkz-tools-eu-points-by.tex
% Copyright 2020  Alain Matthes
% This work may be distributed and/or modified under the
% conditions of the LaTeX Project Public License, either version 1.3
% of this license or (at your option) any later version.
% The latest version of this license is in
%   http://www.latex-project.org/lppl.txt
% and version 1.3 or later is part of all distributions of LaTeX
% version 2005/12/01 or later.
%
% This work has the LPPL maintenance status “maintained”.
%
% The Current Maintainer of this work is Alain Matthes.
%  utf8 encoding
\def\fileversion{3.06c}
\def\filedate{2020/04/06}
\typeout{2020/04/06 3.06c tkz-tools-eu-points-by.tex}
\makeatletter
%<--------------------------------------------------------------------------–>
%                        Transformations Géométriques
%<--------------------------------------------------------------------------–>
\def\tkz@numtrsf{0}
\pgfkeys{/tkzDefPointBy/.cd,
translation/.code args={from #1 to #2}{%
                                  \def\tkzfrom{#1}%
                                  \def\tkzto{#2}%
                                  \def\tkz@numtrsf{0}},
 homothety/.code args={center #1 ratio #2}{%
                                    \def\tkzcenter{#1}%
                                    \def\tkzratio{#2}%
                                    \def\tkz@numtrsf{1}},
 reflection/.code args={over #1--#2}{%
                                    \def\tkzdeb{#1}%
                                    \def\tkzfin{#2}%
                                    \def\tkz@numtrsf{2}},
 symmetry/.code args={center #1}{%
                                    \def\tkzcenter{#1}%
                                    \def\tkz@numtrsf{3}},
 projection/.code args={onto #1--#2}{%
                                    \def\tkzdeb{#1}%
                                    \def\tkzfin{#2}%
                                    \def\tkz@numtrsf{4}},
 rotation/.code args={center #1 angle #2}{%
                                 \def\tkzcenter{#1}%
                                 \def\tkzangle{#2}%
                                 \def\tkz@numtrsf{5}},
 rotation in rad/.code args={center #1 angle #2}{%
                                 \def\tkzcenter{#1}%
                                 \def\tkzangle{#2}%
                                 \def\tkz@numtrsf{6}},
inversion/.code args={center #1 through #2}{%
                                 \def\tkzcenter{#1}%
                                 \def\tkzpoint{#2}%
                                 \def\tkz@numtrsf{7}}
}
%<--------------------------------------------------------------------------–>
\def\tkzDefPointBy{\pgfutil@ifnextchar[{\tkz@DefPointBy}{\tkz@DefPointBy[]}}
\def\tkz@DefPointBy[#1](#2){%
\begingroup
\pgfqkeys{/tkzDefPointBy}{#1}
 \ifcase\tkz@numtrsf%
%  % first case 0
   \tkzUTranslation(\tkzfrom,\tkzto)(#2)
\or% 1
   \tkzUHomo(\tkzcenter,\tkzratio)(#2)
\or% 2
   \tkzUSymOrth(\tkzdeb,\tkzfin)(#2)
\or% 3
   \tkzUCSym(\tkzcenter)(#2)
\or% 4
   \tkzUProjection(\tkzdeb,\tkzfin)(#2)
\or% 5
   \tkzURotateAngle(\tkzcenter,\tkzangle)(#2)
\or% 6
   \tkzURotateInRad(\tkzcenter,\tkzangle)(#2)
\or% 7
   \tkzUInversePoint(\tkzcenter,\tkzpoint)(#2)
\fi
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzDefPointsBy{\pgfutil@ifnextchar[{\tkz@DefPointsBy}{\tkz@DefPointsBy[]}}
\def\tkz@DefPointsBy[#1](#2)#3{%
\begingroup
\pgfqkeys{/tkzDefPointBy}{#1}
\ifcase\tkz@numtrsf%
 % first case 0
   \tkzTranslation(\tkzfrom,\tkzto)(#2){#3}
 \or% 1
   \tkzHomo(\tkzcenter,\tkzratio)(#2){#3}
 \or% 2
   \tkzSymOrth(\tkzdeb,\tkzfin)(#2){#3}
 \or% 3
   \tkzCSym(\tkzcenter)(#2){#3}
 \or% 4
      \tkzProjection(\tkzdeb,\tkzfin)(#2){#3}
 \or% 5
   \tkzRotateAngle(\tkzcenter,\tkzangle)(#2){#3}
 \or% 6
   \tkzRotateInRad(\tkzcenter,\tkzangle)(#2){#3}
 \or% 7
   \tkzInversePoint(\tkzcenter,\tkzpoint)(#2){#3}
\fi
\endgroup
}

%<--------------------------------------------------------------------------–>

\def\ExtractPoint#1,#2\@nil{%
\xdef\tkz@LastList{#2}
\xdef\tkz@FirstPoint{#1}
}
\def\FirstPointInList#1{%
\edef\tkz@templist{#1,}
\expandafter\ExtractPoint\tkz@templist\@nil
}
%<--------------------------------------------------------------------------–>
%  Translation par rapport à un point
%<--------------------------------------------------------------------------–>
\def\tkzTranslation(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
\foreach\PT in {#3}{%
   \FirstPointInList\tkz@LastList
    \ifx\tkz@FirstPoint\tkzutil@empty
      \def\tkz@pointtsf{\PT '}
    \else
        \def\tkz@pointtsf{\tkz@FirstPoint}
    \fi
   \tkz@VecCoLinear(#1,#2,\PT)
    \pgfnodealias{\tkz@pointtsf}{tkzPointResult}
   }
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzUTranslation(#1,#2)(#3){%
\begingroup
  \tkz@VecCoLinear(#1,#2,#3)%
\endgroup
}

%<--------------------------------------------------------------------------–>
%  Symétrie par rapport à un point Homo with (-1)
% #2 le centre #3 l'antécédent
%<--------------------------------------------------------------------------–>
\def\tkzCSym(#1)(#2)#3{%
\begingroup
\gdef\tkz@LastList{#3}
 \foreach\PointCS in {#2}{%
   \FirstPointInList\tkz@LastList
   \ifx\tkz@FirstPoint\tkzutil@empty
      \xdef\tkz@pointtsf{\PointCS '}
   \else
      \xdef\tkz@pointtsf{\tkz@FirstPoint}
   \fi
     \pgfpointdiff{\pgfpointanchor{#1}{center}}%
                  {\pgfpointanchor{\PointCS}{center}}%
     \tkz@ax=\pgf@x%
     \tkz@ay=\pgf@y%
      \pgfinterruptboundingbox
    \path(#1)--++(-\tkz@ax,-\tkz@ay)coordinate (\tkz@pointtsf);
     \endpgfinterruptboundingbox
}
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzUCSym(#1)(#2){%
\begingroup
    \pgfpointdiff{\pgfpointanchor{#1}{center}}%
                 {\pgfpointanchor{#2}{center}}%
    \tkz@ax=\pgf@x%
    \tkz@ay=\pgf@y%
   \path(#1)--++(-\tkz@ax,-\tkz@ay)coordinate (tkzPointResult);
\endgroup
}
%<--------------------------------------------------------------------------–>
%  Symétrie orthogonale par rapport à une droite
%<--------------------------------------------------------------------------–>
\def\tkzSymOrth(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
    \foreach\PointSO in {#3}{%
      \FirstPointInList\tkz@LastList
      \ifx\tkz@FirstPoint\tkzutil@empty
         \def\tkz@pointtsf{\PointSO '}
      \else
         \def\tkz@pointtsf{\tkz@FirstPoint}
      \fi
  \tkzUSymOrth(#1,#2)(\PointSO)
  \pgfnodealias{\tkz@pointtsf}{tkzPointResult}
  }
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzUSymOrth(#1,#2)(#3){%
\begingroup
   \pgfpointdiff{\pgfpointanchor{#1}{center}}%
                {\pgfpointanchor{#2}{center}}%
   \tkz@ax =\pgf@y%
   \tkz@ay =\pgf@x%
   \pgfinterruptboundingbox
   \path[coordinate] (#3)--++(-\tkz@ax,\tkz@ay) coordinate  (tkz@point);
     \endpgfinterruptboundingbox
   \tkzInterLL(#1,#2)(#3,tkz@point)
   \pgfnodealias{tkzPointofSym}{tkzPointResult}
   \tkz@VecK[2](#3,tkzPointofSym)
\endgroup
}

%<--------------------------------------------------------------------------–>
%  Projection orthogonale sur une droite
%<--------------------------------------------------------------------------–>
\def\tkzProjection(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
    \foreach\PointPJ in {#3}{%
      \FirstPointInList\tkz@LastList
      \ifx\tkz@FirstPoint\tkzutil@empty
         \def\tkz@pointtsf{\PointPJ '}
      \else
         \def\tkz@pointtsf{\tkz@FirstPoint}
      \fi
  \tkzUProjection(#1,#2)(\PointPJ)
  \pgfnodealias{\tkz@pointtsf}{tkzPointResult}
  }
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzUProjection(#1,#2)(#3){%
\begingroup
  \pgfpointdiff{\pgfpointanchor{#1}{center}}%
               {\pgfpointanchor{#2}{center}}%
  \tkz@ax =\pgf@y%
  \tkz@ay =\pgf@x%
  \pgfinterruptboundingbox
    \path[coordinate](#3)--++(-\tkz@ax,\tkz@ay) coordinate (tkz@point);
    \tkzInterLL(#1,#2)(#3,tkz@point)% définit tkzPointResult
	\endpgfinterruptboundingbox
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkz@Projection(#1,#2)(#3)#4{%
\begingroup
  \pgfpointdiff{\pgfpointanchor{#1}{center}}%
               {\pgfpointanchor{#2}{center}}%
  \tkz@ax =\pgf@y%
  \tkz@ay =\pgf@x%
   \pgfinterruptboundingbox
  \path[coordinate](#3)--++(-\tkz@ax,\tkz@ay) coordinate (tkz@point);
   \endpgfinterruptboundingbox
  \tkz@InterLL(#1,#2)(#3,tkz@point){#4}% définit tkzPointResult
\endgroup
}
%<--------------------------------------------------------------------------–>
%  Homothétie par rapport à un point
%<--------------------------------------------------------------------------–>
\def\tkzHomo(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
    \foreach\PointHO in {#3}{%
      \FirstPointInList\tkz@LastList
      \ifx\tkz@FirstPoint\tkzutil@empty
         \xdef\tkz@pointtsf{\PointHO '}
      \else
         \xdef\tkz@pointtsf{\tkz@FirstPoint}
      \fi
       \pgfpointdiff{\pgfpointanchor{#1}{center}}%
                    {\pgfpointanchor{\PointHO}{center}}%
       \pgf@xa=\pgf@x%
       \pgf@ya=\pgf@y%
      \pgfmathparse{#2}\edef\tkz@coeff{\pgfmathresult}%
      \pgfinterruptboundingbox
      \path[coordinate](#1)--++(\tkz@coeff\pgf@xa,\tkz@coeff\pgf@ya)%
            coordinate(\tkz@pointtsf);
     \endpgfinterruptboundingbox
  }
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzUHomo(#1,#2)(#3){%
\begingroup
       \pgfpointdiff{\pgfpointanchor{#1}{center}}%
                    {\pgfpointanchor{#3}{center}}%
       \pgf@xa=\pgf@x%
       \pgf@ya=\pgf@y%
      \pgfmathparse{#2}\edef\tkz@coeff{\pgfmathresult}%
        \pgfinterruptboundingbox
      \path[coordinate](#1)--++(\tkz@coeff\pgf@xa,\tkz@coeff\pgf@ya)%
            coordinate(tkzPointResult);
              \endpgfinterruptboundingbox
\endgroup
}
%<--------------------------------------------------------------------------–>
%                 rotation  en degré
%<--------------------------------------------------------------------------–>
\def\tkzRotateAngle(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
    \foreach\PointRot in {#3}{%
      \FirstPointInList\tkz@LastList
      \ifx\tkz@FirstPoint\tkzutil@empty
         \def\tkz@pointtsf{\PointRot '}
      \else
         \def\tkz@pointtsf{\tkz@FirstPoint}
      \fi
        \tkz@@extractxy{\PointRot}
        \tkz@ax\pgf@x%
        \tkz@ay\pgf@y%
        \tkz@@extractxy{#1}
        \tkz@bx\pgf@x%
        \tkz@by\pgf@y%
        \pgfmathrotatepointaround{\pgfpoint{\tkz@ax}{\tkz@ay}}%
                                 {\pgfpoint{\tkz@bx}{\tkz@by}}%
                                 {#2}
        \tkz@bx\pgf@x%
        \tkz@by\pgf@y%
          \pgfinterruptboundingbox
        \path[coordinate](\tkz@bx,\tkz@by)coordinate(\tkz@pointtsf);%
          \endpgfinterruptboundingbox
        }
  \endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzURotateAngle(#1,#2)(#3){%
\begingroup
      \pgf@process{\pgfpointanchor{#3}{center}}%
        \tkz@ax\pgf@x%
        \tkz@ay\pgf@y%
      \pgf@process{\pgfpointanchor{#1}{center}}%
        \tkz@bx\pgf@x%
        \tkz@by\pgf@y%
        \pgfmathrotatepointaround{\pgfpoint{\tkz@ax}{\tkz@ay}}%
                                 {\pgfpoint{\tkz@bx}{\tkz@by}}%
                                 {#2}
        \tkz@bx\pgf@x%
        \tkz@by\pgf@y%
          \pgfinterruptboundingbox
        \path (\tkz@bx,\tkz@by) coordinate (tkzPointResult);%
          \endpgfinterruptboundingbox
  \endgroup
}
%<--------------------------------------------------------------------------–>
% %                 rotation  en radian
% %<--------------------------------------------------------------------------–>
\def\tkzRotateInRad(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
    \foreach\PointRot in {#3}{%
      \FirstPointInList\tkz@LastList
      \ifx\tkz@FirstPoint\tkzutil@empty
         \xdef\tkz@pointtsf{\PointRot '}
      \else
         \xdef\tkz@pointtsf{\tkz@FirstPoint}
      \fi
   \pgfmathparse{#2 r}
   \let\tkz@Angle\pgfmathresult
    \tkz@@extractxy{\PointRot}
    \tkz@ax\pgf@x%
    \tkz@ay\pgf@y%
    \tkz@@extractxy{#1}
    \tkz@bx\pgf@x%
    \tkz@by\pgf@y%
    \pgfmathrotatepointaround{\pgfpoint{\tkz@ax}{\tkz@ay}}%
                             {\pgfpoint{\tkz@bx}{\tkz@by}}%
                             {\tkz@Angle}
    \tkz@bx\pgf@x%
    \tkz@by\pgf@y%
      \pgfinterruptboundingbox
    \path[coordinate](\tkz@bx,\tkz@by)coordinate(\tkz@pointtsf);
      \endpgfinterruptboundingbox
}
\endgroup
}
%<--------------------------------------------------------------------------–>
\def\tkzURotateInRad(#1,#2)(#3){%
\begingroup
   \pgfmathparse{#2 r}
   \let\tkz@Angle\pgfmathresult
    \tkz@@extractxy{#3}
    \tkz@ax\pgf@x%
    \tkz@ay\pgf@y%
    \tkz@@extractxy{#1}
    \tkz@bx\pgf@x%
    \tkz@by\pgf@y%
    \pgfmathrotatepointaround{\pgfpoint{\tkz@ax}{\tkz@ay}}%
                             {\pgfpoint{\tkz@bx}{\tkz@by}}%
                             {\tkz@Angle}
    \tkz@bx\pgf@x%
    \tkz@by\pgf@y%
      \pgfinterruptboundingbox
    \path[coordinate](\tkz@bx,\tkz@by)coordinate(tkzPointResult);
      \endpgfinterruptboundingbox
\endgroup
}
%<--------------------------------------------------------------------------–>
%                   Inverse of a point
%<--------------------------------------------------------------------------–>
\def\tkzInversePoint(#1,#2)(#3)#4{%
\begingroup
\gdef\tkz@LastList{#4}
    \foreach\PointIP in {#3}{%
      \FirstPointInList\tkz@LastList
      \ifx\tkz@FirstPoint\tkzutil@empty
         \xdef\tkz@pointtsf{\PointIP '}
      \else
         \xdef\tkz@pointtsf{\tkz@FirstPoint}
      \fi
   \tkzCalcLength[cm](#1,#2)\tkzGetLength{tkz@lna}
   \tkzCalcLength[cm](#1,\PointIP)\tkzGetLength{tkz@lnb}
	\edef\tkz@lnc{\tkz@lna/\tkz@lnb*\tkz@lna}
   \tkzVecKNorm[\tkz@lnb](#1,\PointIP)
   }
\endgroup
}
\def\tkzUInversePoint(#1,#2)(#3){%
\begingroup
   \tkzCalcLength[cm](#1,#2)\tkzGetLength{tkz@lna}%
   \tkzCalcLength[cm](#1,#3)\tkzGetLength{tkz@lnb}%
    \edef\tkz@lnc{\fpeval{\tkz@lna/\tkz@lnb*\tkz@lna}}
   \tkzVecKNorm[\tkz@lnc](#1,#3)
\endgroup
}
%<--------------------------------------------------------------------------–>
%                   Fin des transformations
%<--------------------------------------------------------------------------–>
\makeatother
\endinput
